I did a search here on the subject of anti-backlash gearing and came up empty.So I am asking the question about anti-backlash gearing and don't think there is any info in the gearotic software about this or specificsin the way to implement them.I see where springs are added to make one gear take up any backlash against a fixed gear. I know that depending on the size and strengthof the spring will limit the amount of torque that can be applied while the backlash is taken up.In the application I am thinking of all I want to do is transmit this rotary motion to an encoder so there isn't much force needed to makesure the gear teeth stay engaged without backlash.Just need to figure out the geometry of adding the spring(s) to at least 1 set of gears (spur) while the pinion at same size is without anyanti-backlash mechanisms.Just wanted to run this by the forum for suggestions and comments.Is this something that could be added to Gearotic?TNX,Bruce

Theres a couple of ways to do this, dynamic and static. If on the design screen you lower the tooth width to .3 or .4 on one gear only, it becines a loose fit. If you now make two of that gear and make them half the face width, you can then tighten one on its shaft and slightly rotatethe other as you tighten it on the same shaft creating any tightness you wish and lock it. This is a method of allowing a static backlash that you need to adjust if theres any wear. The other method is just to attach the second gear to the first with a spring on a tab created by modifying the gear in dxf and getting clever with how to place the spring. That sortof backlash correction is dynamic and will stay tight over time. With an encoder though, I suspect the first option would work fine, though Id just make the slot for the encoder shaft elongatedand adjust the encoder closer till its a tight fit myself.

Yes, you can for example, stub the tooth a touch so theres no hit on the roots trochoidal ,or in many instances you can slightly widen the tooth to .51 for example which allows a tightercontract when slightly moved outwards. You needent worry usually on an encoder toothing when high speeds arent likely.